systems and methods for establishing a first session with a first client device to deliver first content, receiving a request for a second session with a second client device to deliver second content, and re-using the first session for the second session.
|
1. A method, comprising the steps of:
establishing a first session with a first client device to deliver first content in response to a request for the first session;
modulating, by a device, the first content onto a predefined carrier frequency for transmission to the first client device according, to a set of resource descriptor attributes, wherein the set of resource descriptor attributes define characteristics of a path through the device to satisfy the request for the first session;
receiving a request for a second session with a second client device to deliver second content wherein the first and second client devices are different client devices; and
re-using the first session for the second session, wherein the re-using comprises:
modulating, by the device, the second content onto the predefined carrier frequency for transmission to the second client device via the path through the device to satisfies the request for the second session;
wherein the first session is exclusive to the first client until release of the first session for the re-use of the first session by the second client; and
wherein release of the first session is initiated by the first client, by a digital network control system, or a server.
10. A computer readable memory having stored thereon a program executed by a computing device and comprising instructions for implementing the following:
establishing a first session with a first client device to deliver first content, in response to a request for the first session;
causing the computing device to modulate the first content onto a predefined carrier frequency for transmission to the first client device according to a set of resource descriptor attributes, wherein the set of resource descriptor attributes define characteristics of a path through the computing device to satisfy the request for the first session;
receiving a request for a second session with a second client device to delivery second content wherein the first and second client devices are different client devices; and
re-using the first session for the second session, wherein the re-using comprises: causing the computing device to modulate the second content onto the predefined carrier frequency for transmission to the second client device via the path through the computing device to satisfy the request for the second session;
wherein the first session is exclusive to the first client until release of the first session for the re-use of the first session by the second client; and
wherein release of the first session is initiated by the first client, by a digital network control system, or a server.
12. A system comprising:
a digital network control system connected in a network between a server and a plurality of client devices, the digital network control system being configured to:
facilitate a transfer of first content from the server to a first client device of the plurality of client devices over the network during a first session in response to a request for the first session;
modulating, by a device, the first content onto a predefined carrier frequency for transmission to the first client device according to a set of resource descriptor attributes, wherein the set of resource descriptor attributes define characteristics of a path through the device to satisfy the request for the first session;
receive a request for a second session from a second client device of the plurality of client devices wherein the first and second client devices are different client devices; and
in response to the request for the second session, establish the second session between the second client device and the server by re-using the first session, wherein the re-using comprises:
modulating, by the device, the second content onto the predefined carrier frequency for transmission to the second client device via the path through the device to satisfy the request for the second session;
wherein the first session is exclusive to the first client until release of the first session for the re-use of the first session by the second client; and
wherein release of the first session is initiated by the first client, by the digital network control system, or the server.
2. The method of
3. The method of
4. The method of
5. The method of
6. The method of
7. The method of
8. The method of
9. The method of
11. The program of
13. The system of
14. The method of
15. The method of
16. The system of
17. The system of
save at least one of hardware settings and software settings corresponding to the set of network resource descriptor attributes;
provide a first message over the network to the first client device of the plurality of client devices that indicates a release request has been initiated; and
provide a second message over the network to the sever that indicates the first client device of the plurality of client devices has initiated the release.
18. The system of
19. The system of
20. The system of
|
This application is a continuation of U.S. utility application entitled, “Media On Demand Session Re-Use,” having Ser. No. 10/102,250, filed Mar. 20, 2002 now U.S. Pat. No. 7,296,074, which is entirely incorporated herein by reference.
This invention relates in general to session-based media content delivery.
With recent advances in digital transmission technology, subscriber television systems are now capable of providing much more than traditional analog broadcast video. In implementing enhanced programming, the home communication terminal device (“HCT”), otherwise known as the set-top box, has become an important computing device for accessing media content services (and media content within those services) and navigating a user through a maze of available services. In addition to supporting traditional analog broadcast video functionality, digital HCTs (or “DHCTs”) now also support an increasing number of two-way digital services such as video-on-demand (VOD).
Typically, a DHCT is connected to a cable or satellite, or generally, a subscriber television system, and includes hardware and software necessary to provide the functionality of the digital television system at the user's site. Some of the software executed by a DHCT can be downloaded and/or updated via the subscriber television system. Each DHCT also typically includes a processor, communication components, and memory, and is connected to a television or other display device, such as a personal computer. While many conventional DHCTs are stand-alone devices that are externally connected to a television, a DHCT and/or its functionality may be integrated into a television or personal computer or even an audio device such as a programmable radio, as will be appreciated by those of ordinary skill in the art.
Two-way digital services, such as VOD, often require the establishment of network resources (i.e., the allocation of hardware and/or software components and setting of the component parameters) to enable the delivery of media content (e.g., VOD movies) to a requesting DHCT subscriber, and the “tearing down” of these resources (i.e., the release of the components to enable further resource establishment) when, for example, the media content presentation has ended. The establishment of network resources for the delivery of media content defines the beginning of a session. Session setup and release are typically costly and/or time consuming insofar as they can require frequent communication between various subscriber television system hardware and/or software components.
Thus, a heretofore unaddressed need exists in the industry to address the aforementioned deficiencies and inadequacies.
The preferred embodiments of the invention can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
The preferred embodiments of the invention now will be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown. In particular, the preferred embodiments include a mechanism for re-using sessions, which will be described in the context of on-demand media content delivery in a subscriber television system. By re-using sessions, hardware and/or software interactions that are typically integral to terminating and creating sessions for the delivery of media content are reduced, providing for an efficient utilization of network resources and reduced latency in the delivery of media content.
It will be understood, within the context of the below description, that re-using sessions is not limited to implementations that are connection oriented, and that non-connection oriented media content delivery is also within the scope of the preferred embodiments. This invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those having ordinary skill in the art. Furthermore, all “examples” given herein are intended to be non-limiting, and are provided as an exemplary list among many examples contemplated but not shown.
One embodiment of the invention is generally implemented as part of a subscriber television system (STS), which includes digital broadband delivery systems (DBDS) and cable television systems (CTS). As a non-limiting example, a subscriber television system (STS) and its operation will be described initially, with the understanding that other conventional data delivery systems are within the scope of the preferred embodiments of the invention.
The STS 10 typically delivers broadcast video signals as digitally formatted signals in addition to delivering traditional broadcast analog video signals. Furthermore, the system can typically support one way broadcast services as well as both one-way data services and two-way media content and data services. The two-way operation of the network typically allows for user interactivity with services, such as Pay-Per-View programming, Near Video-On-Demand (NVOD) programming according to any of several known NVOD implementation methods, Video-on-Demand (VOD) programming (according to any of several VOD implementation methods), and interactive applications, such as Internet connections.
The STS 10 also provides the interfaces, network control, transport control, session control, and servers to access media content from media content services, and distributes media content to DHCT users. As shown in
Media content provided by one or more content providers (not shown) is communicated by the content providers to one or more headends 11. From those headends 11 the media content is then communicated over a communications network 18 that includes a plurality of HFC access networks 17 (only one HFC access network 17 is illustrated). The HFC access network 17 typically comprises a plurality of HFC nodes 13, each of which may serve a local geographical area. The hub 12 connects to the HFC node 13 through a fiber portion of the HFC access network 17. The HFC node 13 is connected to a tap 14, which is preferably connected to a digital home communication terminal (DHCT) 16. Coaxial cables are typically used to couple nodes 13 and taps 14 because the electrical signals can be easily repeated with RF amplifiers. As the high-level operations of many of the functions of an STS 10 are well known to those of ordinary skill in the art, further high level description of the overall STS 10 of
As depicted in
Analog transmission signals (ATSs) 260 shown in
Like the ATSs 260, the DTSs 264, 268, 272 each typically occupies 6 MHz of the RF spectrum. However, the DTSs 264, 268, 272 are digital transmission signals consisting of 64- or 256-Quadrature Amplitude Modulated (QAM) digital signals preferably formatted using Moving Picture Experts Group (MPEG) standards such as MPEG-2 transport streams, allocated in a separate frequency range. The MPEG-2 transport stream enables transmission of a plurality of DTS types over each 6 MHz RF subdivision, as compared to a 6 MHz ATS. The three types of digital transport signals illustrated in
MPEG-2 transport may be used to multiplex video, audio, and data in each of these DTSs. However, because an MPEG-2 transport stream allows for multiplexed video, audio, and data into the same stream, the DTSs do not necessarily have to be allocated in separate 6 MHz RF frequencies, unlike ATSs 260, in one embodiment. On the other hand, each DTS is capable of carrying multiple broadcast digital media content instances, multiple cycling data carousels containing broadcast data, and data requested on-demand by the subscriber. Data is formatted, such as in Internet Protocol (IP), mapped into MPEG-2 packets, and inserted into the multiplexed MPEG-2 transport stream. Encryption can be applied to the data stream for security so that the data may be received only by authorized DHCTs. The authorized DHCT 16 is provided with the mechanisms to receive, among other things, additional data or enhanced services. Such mechanisms can include “keys” that are required to decrypt encrypted data.
Each 6 MHz RF subdivision assigned to a digital transmission signal (DTS) can carry the video and audio streams of the media content instances of multiple television (TV) stations, as well as media content and data that is not necessarily related to those TV media content instances, as compared to one TV channel broadcast over one ATS 260 that consumes the entire 6 MHz. The digital data is inserted into MPEG transport streams carried through each 6 MHz frequency subdivision assigned for digital transmission, and then demultiplexed at the subscriber DHCT so that multiple sets of data can be produced within each tuned 6 MHz frequency span, or subdivision.
Although broadcast in nature, the carousel DTSs 268 and on-demand DTSs 272 offer different functionality. Continuing with
Preferably, the User-to-Network Download Protocol of the MPEG-2 standard's DSM-CC specification (Digital Storage Media-Command and Control) provides the data carousel protocol used for broadcasting data from a server located at headend 11, or elsewhere. It also provides the interactive download protocol for reliable downloading of data from a server (possibly the same server) to an individual DHCT through the on-demand DTSs. Each carousel and on-demand DTS is preferably defined by a DSM-CC session. Therefore, some of the basic functionality reflected in the DHCT 16 when the DHCT does not have a local physical storage device is somewhat similar to a networked computer (i.e., a computer without a persistent storage device), in addition to traditional set top box functionality, as is well known to those of ordinary skill in the art. A DHCT 16 with a storage device reduces data access latency when the data is stored in the local physical storage device ahead of time.
Also shown in
The DNCS 323 provides management, monitoring, and control of the network's elements and broadcast services provided to users. In one implementation, the DNCS 323 uses a data insertion multiplexer 329 and a data QAM 330 to insert in-band broadcast file system (BFS) data into an MPEG-2 transport stream that is broadcast and received via DHCT's communication interface 442 (
A service application manager (SAM) server 325 is a server component of a client-server pair of components, with the client component being located at the DHCT 16 (
Applications on both the headend 11 and the DHCT 16 (
A VOD content manager 321 is responsible for managing the content on the video pumps 311 of the VOD content servers 322. The MOD server application 319 controls both the VOD content manager 321 and the VOD content servers 322 and utilizes them to help deliver the video and audio streams that make up VOD services. In one embodiment, a MOD content manager and MOD content servers (not shown) could run respectively in parallel to the VOD content manager 321 and VOD content servers 322 to manage other types of on-demand media content. In an alternate embodiment a MOD content manager replaces the VOD content manager 321 and the MOD content servers replaces the VOD content servers 322. The QAM modulators that comprise the QAM group 324 receive the MPEG-2 transport streams from the VOD content servers 322, convert them into encrypted RF signals at a specified frequency (channel), and transmit them to a DHCT 16 (
The QPSK modem 326 is responsible for transporting the out-of-band Internet protocol (IP) datagram traffic between the distribution headend 11 and a DHCT 16 (
A transaction encryption device (TED) 350 is a special-purpose processor. The DNCS 323 employs the TED 350, in one embodiment, to create an interactive session key (ISK). For example, in asymmetric cryptography, the DNCS 323 supplies templates for each of two Entitlement Management Messages (EMM) (i.e., one used for the QAM of the QAM group 324 (herein, QAM) and the other used for the DHCT 16) as well as public keys for the QAMs and the DHCT 16. The TED 350 preferably generates a triple-DES cryptographic key that will be used as the ISK. The TED 350 inserts this key in each EMM, then encrypts each EMM using the public key appropriate for the EMM's destination. The TED 350 returns the two resulting encrypted EMMs to the DNCS 323. The DNCS 323 sends the EMMs to the QAM and the DHCT 16. The QAM receives its EMM, decrypts the EMM using its private key, and extracts the triple-DES ISK. The QAM then proceeds to generate a stream of single-DES keys and uses each, in turn, to encrypt a portion of the session in question. At substantially the same time, the QAM inserts each single-DES key into an Entitlement Control Message (ECM), encrypts the ECM using the ISK, and inserts the encrypted ECM in the video stream along with the encrypted video. The DHCT 16 decrypts its EMM using its private key, extracts the ISK, and uses the ISK to decrypt the ECMs. In this way, it acquires the single-DES keys used by the QAM when encrypting the media content. In addition, there are markers in the encrypted video stream indicating when the QAM switched between single-DES keys. Note that in other embodiments, the functionality of the TED 350 can be implemented through software, such as the software of the DNCS 323.
The DHCT 16 further preferably includes one or more processors, such as a processor 444, for controlling operations of the DHCT 16, an output system 448 for driving the television display 441, and at least one tuner system 445 for tuning into a particular television channel or frequency to display media content and for sending and receiving various types of data or media content to and from the headend 11. The DHCT 16 may include, in other embodiments, multiple tuners for receiving downloaded (or transmitted) media content. The tuner system 445 can select from a plurality of transmission signals (
According to another embodiment of the invention, a telephone modem (not shown) in the DHCT 16 can be utilized for upstream data transmission and a headend 11, hub 12 (
The DHCT 16 may also include one or more wireless or wired interfaces, also called communication ports (not shown), for receiving and/or transmitting data to other devices. For instance, the DHCT 16 may feature USB (Universal Serial Bus), Ethernet (for connection to a computer), IEEE-1394 (for connection to media devices in an entertainment center), serial, and/or parallel ports. The user inputs may, for example, be provided by a computer or transmitter with buttons or keys located either on the exterior of the terminal or by a hand-held remote control device or keyboard that includes user-actuated buttons, or the user inputs may be aural.
The DHCT 16 can include one or more storage devices (not shown), preferably integrated into the DHCT 16 through an integrated drive electronics (IDE) or small computer system interface (SCSI), or externally coupled to the DHCT 16 via one of the communication ports described above. The storage device can be optical, among other technologies, but is preferably a hard disk drive.
In one implementation, the DHCT 16 includes system memory 449, which includes FLASH memory 451 and dynamic random access memory (DRAM) 452, for storing various applications, modules and data for execution and use by the processor 444. Basic functionality of the DHCT 16 is provided by an operating system 453 that is preferably stored in FLASH memory 451. Among other things, the operating system 453 includes at least one resource manager 467 that provides an interface to resources of the DHCT 16 such as, for example, computing resources.
One or more programmed software applications, herein referred to as applications, are executed by utilizing the computing resources in the DHCT 16. Note that an application typically includes a client part and a server counterpart that cooperate to provide the complete functionality of the application. The applications may be resident in FLASH memory 451 or downloaded (or uploaded) into DRAM 452. Applications stored in FLASH memory 451 or DRAM 452 are executed by the processor 444 (e.g., a central processing unit or digital signal processor) under the auspices of the operating system 453. Data required as input by an application is stored in DRAM 452 or FLASH memory 451 and read by the processor 444 as need be during the course of the application's execution. Input data may be data stored in DRAM 452 by a secondary application or other source, either internal or external to the DHCT 16, or possibly anticipated by the application and thus created with the application at the time it was generated as a software application, in which case it is stored in FLASH memory 451. Data generated by an application is stored in DRAM 452 by the processor 444 during the course of the application's execution. DRAM 452 also includes application memory 470 that various applications may use for storing and/or retrieving data.
An application referred to as a navigator 455 is also resident in FLASH memory 451. The navigator 455 provides a navigation framework for services provided by the DHCT 16. The navigator 455 preferably handles channel navigation keys on the remote control device 480. It also preferably displays a channel banner with information about the selected channel. The navigator 455 registers for and in some cases reserves certain user inputs related to navigational keys such as channel increment/decrement, last channel, favorite channel, etc. The navigator 455 also provides users with television related menu options that correspond to DHCT functions such as, for example, blocking a channel or a group of channels from being displayed in a channel menu.
The FLASH memory 451 also contains a platform library 456. The platform library 456 is a collection of utilities useful to applications, such as a timer manager, a compression manager, a configuration manager, a hyper-text markup language (HTML) parser, a database manager, a widget toolkit, a string manager, and other utilities (not shown). These utilities are accessed by applications via application programming interfaces (APIs) as necessary so that each application does not have to contain these utilities. Two components of the platform library 456 that are shown in
The window manager 459 also maintains, among other things, a user input registry 450 in DRAM 452 so that when a user enters a key or a command via the remote control device 480 or another input device such as a keyboard or mouse, the user input registry 450 is accessed to determine which of various applications running on the DHCT 16 should receive data corresponding to the input key and in which order. As an application is executed, it registers a request to receive certain user input keys or commands, also called events. Events are the typical manner of communication between the operating system 453 and applications. When the user presses a key corresponding to one of the commands on the remote control device 480, the command is received by the receiver 446 and relayed to the processor 444. The processor 444 dispatches the event to the operating system 453 where it is forwarded to the window manager 459 which ultimately accesses the user input registry 450 and routes data corresponding to the incoming command to the appropriate application.
The SAM application 457 is a client component of a client-server pair of components, with the server component being located on the headend 11, typically in the DNCS 323 (
Applications can also be downloaded into DRAM 452 at the request of the SAM application 457, typically in response to a request by the user or in response to a message from the headend 11. In the example DHCT 16 depicted in
In one implementation, applications executing on the DHCT 16 work with the navigator 455 by abiding by several guidelines. First, an application utilizes the SAM application 457 for the provision, activation, and suspension of services. Second, an application shares DHCT 16 resources with other applications and abides by the resource management policies of the SAM application 457, the operating system 453, and the DHCT 16. Third, an application handles situations where resources are only available with navigator 455 intervention. Fourth, when an application loses service authorization while providing a service, the application suspends the service via the SAM (the navigator 455 will reactivate an individual service application when it later becomes authorized). Finally, an application is designed to not have access to certain user input keys reserved by the navigator (i.e., power, channel +/−, volume +/−, etc.).
The MOD application 463, in providing its service, engages in a direct two-way IP connection with the VOD content server 322 (
Preferably, when the user tunes to the MOD channel, the navigator 455 asks the SAM 457 for the service mapped to the channel, which is a service provided by the MOD application 463. The navigator 455 then uses the SAM 457 to activate the MOD service. If the MOD application 463 is not resident in the memory of the DHCT 16, the SAM 457 uses facilities of the operating system to download the MOD application 463 using the BFS client 443. Once loaded in DHCT 16 memory, the MOD application 463 is executed. An activate service event is then delivered to the MOD application 463. Contained in the event is the parameter data defined for the service by the MOD application server 319 (
The first time the MOD application 463 is activated, it connects to the MOD application server 319 (
The titles presented in the MOD title catalog screen (not shown) that are grouped in the various title categories are arranged by a system operator through an interface (not shown) at the headend 11. The interface is provided by the MOD application server 319 (
Whenever a catalog or title category is updated or created, the catalog manager (not shown) of the MOD application server 319 (
To provide the MOD service to the user, the MOD application 463 preferably interacts with the VOD content server 322 (
Any process descriptions or blocks in the flow charts and/or flow diagrams that follow should be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps in the process, and alternate implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art.
Step 510 provides that the DNCS 323 forwards the request to the VOD content server 322 in the form of a session indication. In one embodiment, the DNCS 323 does not interpret the user-to-user data, but instead just forwards the request to the VOD content server 322. In other embodiments, the DNCS 323 performs some decision processing functionality, such as load balancing servers, matching proprietary devices (e.g., remote server to DHCT), and selection of communication terminals to optimize signal strength, among other functions.
After the VOD content server 322 receives the session indication, it interprets the request and makes a determination as to whether it can supply the requested movie. The VOD content server 322 also determines the resources and resource parameters (herein collectively referred to as resources) necessary to fulfill the session request. These resources can include the QAMs of the QAM group 324 (
In some implementations, the VOD content server 322 can be in communications with a separate billing entity that determines the issue of authorized access and other billing issues. Also, in some implementations, the VOD content server 322 will have a table (not shown) that will correlate groups of users to particular QAMs (or input TSID's). In other implementations, the VOD content server 322 can provide a list of input TSID's for QAMs that can illuminate a requesting DHCT 16, and the DNCS 323 can decide the most acceptable input TSID of these choices. In some embodiments, the DNCS 323 may send the DHCT 16 a session proceeding indicating message (not shown) to alert the DHCT 16 that the session request is being processed.
If the VOD content server 322 determines that it can deliver the service, it sends back a resource request to the DNCS 323 to reserve and arrange the network resources to deliver the service (Step 515).
Resource descriptors are used to define the resources that are allocated to a session. An interactive session preferably has two resource “views.” The VOD content server 322 resource descriptor view (i.e., server view) defines the resources that are used to deliver the service from VOD content server 322 into the network 18 (
For the VOD content server 322 resource descriptor view, several resource descriptors are used, including TSDownstreamBandwidth, MPEGProgram, as well as two other resource descriptors (ServerConditionalAccess and HeadEndID) that will be described below in association with
The MPEGProgram resource descriptor is another VOD content server 322 resource descriptor. This resource descriptor identifies the MPEG program number that is carrying the service and is passed by the DNCS 323 to the QAM, which in one implementation, picks the media content instance associated with the program number from the input transport stream and passes it to the QAM output for delivery to a requesting DHCT 16.
The second resource view of an interactive session is the MOD application 463 resource descriptor view (i.e., client view). This view is used for all services that use MPEG to deliver the downstream data. The resource descriptor, “TSDownstreamBandwidth,” contains a transport stream ID field and a bandwidth field. The transport stream ID identifies the QAM modulator in service group 324 (
The bandwidth field identifies, in bits per second, the bandwidth at which a service will be delivered. The MPEGProgram resource descriptor identifies the MPEG program number that is carrying the service. This resource descriptor is used by the DHCT 16 to determine which media content instance from a transport stream identified by the TSDownstreamBandwidth resource to decode. As with the server view, the client view also includes the HeadEndID descriptors and a ClientConditionalAccess descriptor, as described below.
In Step 520, the DNCS 323 requests that the identified QAM start a session. This request includes directing the QAM to start a session with a particular input TSID. In general, the DNCS 323 (and cooperating hardware and/or software) takes an MPEG program from a transport stream (coming from the VOD content server 322) and ensures that the MPEG program (with program number or elementary stream PIDs potentially remapped) is modulated by a modulator whose output can be read by a client device (i.e., DHCT 16). When setting a session on a QAM, the DNCS 323 communicates to the QAM both an input port and an output port. Each port maps one-to-one to a TSID. The output port also has a frequency, which was established when the QAM first started in the network 18 (
Continuing with the flowchart of
Referring to
Step 565 provides that the DNCS 323 forwards the information of the session response to the DHCT 16 in a session confirmation. The information in the session confirmation includes specifics about the resources set-up by the DNCS 323, including what frequency the DHCT 16 must tune to, the output MPEG program number (output from the QAM) the DHCT 16 must select to retrieve the requested on-demand media content instance, and the ISK message from which the DHCT extracts the ISK to decrypt the encrypted media content, as described above.
Finally, the QAM delivers the requested media content to the DHCT 16 (Step 570), encrypting as media content is passed through the QAM from the video pump. Although this media content is delivered over a dedicated session, it is carried on a transport stream in MPEG packets over the defined carrier frequency from the QAM. The transport stream, due to the nature of MPEG, can be carrying a plurality of on-demand media content instances via VOD sessions to other users.
Other signaling supported by the network infrastructure is a periodic “keep-alive” between the DNCS 323 and the DHCT 16. The DHCT 16 periodically sends a ClientSessionInProgress message (not shown), which lists the sessions currently terminating at the DHCT 16. The primary purpose is for the DNCS 323 to detect when a DHCT 16 powers off or reboots. The DNCS 323 keeps a transmission control protocol (TCP) connection open to each server, and synchronizes when it loses that connection. In some embodiments, a ServerSessionInProgress message as defined by DSM-CC can similarly be used for detection of loss of power or reboots.
The DHCT 16 can initiate a regular VOD session tear down. The regular session teardown includes the release of the network resources used to provide a VOD session. The release of the network resources enables the initiation of a new VOD session.
A regular session tear down may also be initiated by the VOD content server 322.
A regular VOD session tear down may also be initiated by the DNCS 323. Again, as with
The VOD content server 322 (
Session setup and release are typically costly insofar as they require communication with headend hardware and encryption devices. Individual VOD servers tend to serve content of a single type, resulting in session resource requests that, typically, seldom vary. For example, a single server that delivers VOD media content tends to request the same data rate for all of the sessions that it serves. The preferred embodiments preserve settings on headend hardware across sessions, requiring less communication with that hardware. The preferred embodiment will release network resources when necessary, and will re-use hardware setups whenever possible, as described below. Other embodiments release and re-use to a lesser extent. This is best illustrated by first showing changes to session release, as illustrated by the schematic diagram in
Subsequently, the saved session may be used to satisfy a new session request, as shown in
Step 850 provides that the DRM 334 finds re-usable session resources. Once the DRM 334 has session information available for re-use, it can satisfy resource requests using pre-existing resource sets from previous sessions. In a preferred embodiment, the DRM 334 evaluates one or more resource descriptor attributes to make the determination as to whether resources match. For example, the DRM 334 can ensure that the session to be re-used will match the bit rate required by the new session. In one embodiment, the DRM 334 ensures that the bit rate of the re-used session is at least enough to satisfy the bit rate required for the new session. The DRM 334 can also evaluate whether encryption is required in the new session, and whether the re-usable sessions are configured for encryption. Another possible evaluation can include determining the constraints of the available video pumps 311 (
Thus, in the preferred embodiment, one or more of steps 520-545 (
From the session table 920, the DRM 334 can access the server view resource descriptors 930 and the client view resource descriptors 940 for comparison between the requested session and the sessions available for re-use, as described below.
In the preferred embodiment, as described above, the DRM 334 correlates new session resource requests with resource sets available for re-use from previous sessions. Resource descriptors and resource descriptor attributes (data items) that are considered in this correlation include TSDownstreamBandwidth 950, MPEGProgram 960, ServerConditionalAccess 970 (and its client view analog, the ClientConditionalAccess 972), and the HeadEndId 980. The TSDownstreamBandwidth 950 includes the downstreamBandwidth field (not shown). The downstreamBandwidth field indicates the data rate in bits per second, which have been allocated to the session for delivery of application data to the DHCT. The TSDownstreamBandwidth 950 descriptor also includes the downstreamTransportID field (not shown), which identifies the TSID through which the session enters the network (i.e., output from the VOD pump).
The MPEGProgram 960 includes the mpegProgramNum field (not shown). This field is used to specify the program number being used to transport the video stream from the server to the network. Either the VOD content server 322 (
The ServerConditionalAccess 970 and ClientConditionalAccess 972 include two fields (not shown): CaSystemId and CopyProtection. The presence of the ServerConditionalAccess 970 descriptor in the resource request indicates that the server wants the session encrypted. The ServerConditionalAccess 970 appears in the server view of a session. The ServerConditionalAccess 970 identifies the clients (i.e., the DHCTs) that should have access to the session. The ClientConditionalAccess 972 appears in the client view of a session, and carries data used by the conditional access system to provide access to the session. For example, in the asymmetric cryptography described above, this resource descriptor carries an EMM that includes the ISK for the session. The CaSystemId shall specify the conditional access system to be used to protect the session. This field may be server assigned or assigned by the DNCS 323. Almost all sessions started in a given system will preferably have the same CaSystemId. The CopyProtection shall specify if copy protection shall be enabled for the asset by the client, and thus is relevant to application functionality.
The HeadEndId 980 includes three fields (not shown): HeadEndFlag, HeadEndId, and TransportStreamId fields. The HeadEndFlag takes one of four values that determine how the remaining fields should be interpreted. In typical use, this flag indicates that the HeadEndId field should be ignored. The HeadEndId field is an OSI NSAP (Open System Interconnection, Netscape Server API) address that is used to specify distribution of a session content to a particular Head End. This form of the resource descriptor is not used for VOD. It is used when starting broadcast sessions, to indicate a portion of the system to which the session should be delivered. The TransportStreamId field is used to identify the terminating transport stream of the connection through the network. The server may use this field to request that a specific QAM modulator carry a session.
As a non-limiting example implementation, upon receiving a request from the DSM 335 (
The DRM 334 may succeed in matching resources, in which case the results will be returned to the DSM 335 (
A recently released session is likely to be more useful if the VOD content server 322 (
The DRM 334 (
The ability to ensure sessions can be re-used is provided for via several embodiments. In an ATM embodiment, the elementary streams are provided for, which enable a determination by the VOD content server 322 (
The DNCS 323 (
The DNCS 323 (
It should be emphasized that the above-described embodiments of the present invention, particularly, any “preferred embodiments” are merely possible examples of implementations, merely setting forth a clear understanding of the principles of the inventions. Many variations and modifications may be made to the above-described embodiments of the invention without departing substantially from the spirit of the principles of the invention. All such modifications and variations are intended to be included herein within the scope of the disclosure and present invention and protected by the following claims.
Patent | Priority | Assignee | Title |
10320916, | Oct 04 2011 | Cisco Technology, Inc. | Systems and methods for correlating multiple TCP sessions for a video transfer |
Patent | Priority | Assignee | Title |
5768419, | May 23 1995 | NOKIA SOLUTIONS AND NETWORKS GMBH & CO KG | Method of connection handling for interactive services |
5812668, | Jun 17 1996 | Hewlett Packard Enterprise Development LP | System, method and article of manufacture for verifying the operation of a remote transaction clearance system utilizing a multichannel, extensible, flexible architecture |
5911044, | Nov 08 1996 | Ricoh Company, LTD | Network image scanning system which transmits image information from a scanner over a network to a client computer |
5987140, | Apr 26 1996 | Hewlett Packard Enterprise Development LP | System, method and article of manufacture for secure network electronic payment and credit collection |
6166730, | Dec 03 1997 | COX COMMUNICATIONS, INC | System for interactively distributing information services |
6317584, | Dec 21 1998 | Apple Inc | Controlling communication in wireless and satellite networks |
6338089, | Oct 06 1998 | Bull HN Information Systems Inc.; BULL HN INFORMATION SYSTEMS INC | Method and system for providing session pools for high performance web browser and server communications |
6411986, | Nov 10 1998 | Citrix Systems, Inc | Internet client-server multiplexer |
6519643, | Apr 29 1999 | JPMORGAN CHASE BANK, N A , AS SUCCESSOR AGENT | Method and system for a session allocation manager ("SAM") |
6922689, | Dec 01 1999 | Alcatel Lucent | Method and apparatus for auto-assisting agents in agent-hosted communications sessions |
7010801, | Jun 11 1999 | SYNAMEDIA LIMITED | Video on demand system with parameter-controlled bandwidth deallocation |
7451475, | Jun 17 1999 | ARRIS ENTERPRISES LLC | Method for delivery of narrow-cast data over digital broadcast channels |
7496945, | Jun 29 2001 | SYNAMEDIA LIMITED | Interactive program guide for bidirectional services |
7992163, | Jun 11 1999 | NDS Limited | Video-on-demand navigational system |
20030005447, | |||
20030023742, | |||
20040095920, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Sep 21 2007 | Cisco Technology Inc. | (assignment on the face of the patent) | / | |||
Dec 05 2008 | Scientific-Atlanta, Inc | Scientific-Atlanta, LLC | CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 033347 | /0217 | |
Dec 05 2008 | Scientific-Atlanta, Inc | Scientific-Atlanta, LLC | CONVERSION OF BUSINESS ENTITY | 024662 | /0504 | |
Jul 15 2014 | Scientific-Atlanta, LLC | Cisco Technology, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 033328 | /0764 |
Date | Maintenance Fee Events |
Sep 04 2018 | M1551: Payment of Maintenance Fee, 4th Year, Large Entity. |
Oct 24 2022 | REM: Maintenance Fee Reminder Mailed. |
Apr 10 2023 | EXP: Patent Expired for Failure to Pay Maintenance Fees. |
Date | Maintenance Schedule |
Mar 03 2018 | 4 years fee payment window open |
Sep 03 2018 | 6 months grace period start (w surcharge) |
Mar 03 2019 | patent expiry (for year 4) |
Mar 03 2021 | 2 years to revive unintentionally abandoned end. (for year 4) |
Mar 03 2022 | 8 years fee payment window open |
Sep 03 2022 | 6 months grace period start (w surcharge) |
Mar 03 2023 | patent expiry (for year 8) |
Mar 03 2025 | 2 years to revive unintentionally abandoned end. (for year 8) |
Mar 03 2026 | 12 years fee payment window open |
Sep 03 2026 | 6 months grace period start (w surcharge) |
Mar 03 2027 | patent expiry (for year 12) |
Mar 03 2029 | 2 years to revive unintentionally abandoned end. (for year 12) |